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MIT OpenCourseWareMIT 5.111 Principles of Chemical Science, Fall 2008 (2008)

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PLEASE NOTE: These files are to fix the corrupt Lectures 2, 6, 8, 11 from the original archive http://www.archive.org/details/MIT5.111F08/

We were unable to edit the original archive so we posted the corrected files to another archive in the hopes that people will find them.

The MIT 5.111 Principles of Chemical Science, Fall 2008 course provides an introduction to the chemistry of biological, inorganic, and organic molecules. The emphasis is on basic principles of atomic and molecular electronic structure, thermodynamics, acid-base and redox equilibria, chemical kinetics, and catalysis.

Instructors: Prof. Catherine Drennan, Dr. Elizabeth Vogel Taylor

View the complete course at: http://ocw.mit.edu/5-111F08

License: Creative Commons BY-NC-SA
More information at http://ocw.mit.edu/terms
More courses at http://ocw.mit.edu



This movie is part of the collection: MIT OpenCourseWare

Producer: MIT OpenCourseWare
Audio/Visual: sound, color
Language: English
Keywords: chemistry; introductory; atomic structure; molecular electronic structure; thermodynamics; acid-base equillibrium; titration; redox; chemical kinetics; catalysis; lewis structures; VSEPR theory; wave-particle duality; biochemistry; orbitals; periodic trends; valence bond theory; hybridization; free energy; reaction mechanism; Rutherford backscattering

Creative Commons license: Attribution-Noncommercial-Share Alike 3.0


Individual Files

Movie Files MPEG4 Ogg Video
Lecture 1: The importance of chemical principles 60.4 MB 
86.8 MB 
Lecture 2: Discovery of electron and nucleus, need for quantum mechanics 102.6 MB 
165.1 MB 
Lecture 3: Wave-particle duality of light 105.9 MB 
143.8 MB 
Lecture 4: Wave-particle duality of matter, Schrödinger equation 99.2 MB 
142.8 MB 
Lecture 5: Hydrogen atom energy levels 105.3 MB 
145.0 MB 
Lecture 6: Hydrogen atom wavefunctions (orbitals) 106.3 MB 
154.7 MB 
Lecture 7: p-orbitals 102.8 MB 
137.8 MB 
Lecture 8: Multielectron atoms and electron configurations 106.8 MB 
135.9 MB 
Lecture 9: Periodic trends 108.5 MB 
155.3 MB 
Lecture 10: Periodic trends continued; Covalent bonds 104.4 MB 
137.5 MB 
Lecture 11: Lewis structures 111.9 MB 
166.8 MB 
Lecture 12: Exceptions to Lewis structure rules; Ionic bonds 110.8 MB 
161.3 MB 
Lecture 13: Polar covalent bonds; VSEPR theory 98.7 MB 
124.8 MB 
Lecture 14: Molecular orbital theory 112.6 MB 
155.0 MB 
Lecture 15: Valence bond theory and hybridization 87.0 MB 
99.8 MB 
Lecture 16: Determining hybridization in complex molecules; Thermochemistry and bond energies/bond enthalpies 110.7 MB 
166.3 MB 
Lecture 17: Entropy and disorder 108.2 MB 
140.4 MB 
Lecture 18: Free energy and control of spontaneity 98.4 MB 
130.7 MB 
Lecture 19: Chemical equilibrium 101.9 MB 
128.8 MB 
Lecture 20: Le Chatelier's principle and applications to blood-oxygen levels 109.6 MB 
148.6 MB 
Lecture 21: Acid-base equilibrium: Is MIT water safe to drink? 80.4 MB 
119.8 MB 
Lecture 22: Chemical and biological buffers 109.2 MB 
122.3 MB 
Lecture 23: Acid-base titrations 99.3 MB 
120.7 MB 
Lecture 24: Balancing oxidation/reduction equations 104.9 MB 
121.4 MB 
Lecture 25: Electrochemical cells 105.7 MB 
109.0 MB 
Lecture 26: Chemical and biological oxidation/reduction reactions 101.7 MB 
127.4 MB 
Lecture 27: Transition metals and the treatment of lead poisoning 99.0 MB 
128.1 MB 
Lecture 28: Crystal field theory 100.5 MB 
127.6 MB 
Lecture 29: Metals in biology 92.0 MB 
123.6 MB 
Lecture 30: Magnetism and spectrochemical theory 86.6 MB 
91.7 MB 
Lecture 31: Rate laws 94.9 MB 
80.3 MB 
Lecture 32: Nuclear chemistry and elementary reactions 99.6 MB 
112.6 MB 
Lecture 33: Reaction mechanism 100.3 MB 
127.7 MB 
Lecture 34: Temperature and kinetics 92.0 MB 
107.6 MB 
Lecture 35: Enzyme catalysis 105.0 MB 
118.3 MB 
Lecture 36: Biochemistry 68.1 MB 
62.9 MB 
Image Files Thumbnail Animated GIF
Lecture 1: The importance of chemical principles 3.1 KB 
332.8 KB 
Lecture 2: Discovery of electron and nucleus, need for quantum mechanics 4.9 KB 
388.3 KB 
Lecture 3: Wave-particle duality of light 4.2 KB 
294.5 KB 
Lecture 4: Wave-particle duality of matter, Schrödinger equation 4.2 KB 
334.0 KB 
Lecture 5: Hydrogen atom energy levels 4.4 KB 
305.9 KB 
Lecture 6: Hydrogen atom wavefunctions (orbitals) 4.2 KB 
323.7 KB 
Lecture 7: p-orbitals 3.8 KB 
299.5 KB 
Lecture 8: Multielectron atoms and electron configurations 3.8 KB 
295.6 KB 
Lecture 9: Periodic trends 3.9 KB 
310.3 KB 
Lecture 10: Periodic trends continued; Covalent bonds 4.9 KB 
362.8 KB 
Lecture 11: Lewis structures 4.9 KB 
384.7 KB 
Lecture 12: Exceptions to Lewis structure rules; Ionic bonds 3.8 KB 
326.3 KB 
Lecture 13: Polar covalent bonds; VSEPR theory 5.2 KB 
318.0 KB 
Lecture 14: Molecular orbital theory 4.1 KB 
326.2 KB 
Lecture 15: Valence bond theory and hybridization 4.9 KB 
358.5 KB 
Lecture 16: Determining hybridization in complex molecules; Thermochemistry and bond energies/bond enthalpies 4.3 KB 
318.4 KB 
Lecture 17: Entropy and disorder 4.3 KB 
333.9 KB 
Lecture 18: Free energy and control of spontaneity 4.3 KB 
294.3 KB 
Lecture 19: Chemical equilibrium 3.9 KB 
379.1 KB 
Lecture 20: Le Chatelier's principle and applications to blood-oxygen levels 4.8 KB 
352.5 KB 
Lecture 21: Acid-base equilibrium: Is MIT water safe to drink? 5.2 KB 
337.5 KB 
Lecture 22: Chemical and biological buffers 4.6 KB 
362.2 KB 
Lecture 23: Acid-base titrations 3.7 KB 
284.5 KB 
Lecture 24: Balancing oxidation/reduction equations 3.3 KB 
368.6 KB 
Lecture 25: Electrochemical cells 4.5 KB 
342.5 KB 
Lecture 26: Chemical and biological oxidation/reduction reactions 4.0 KB 
336.0 KB 
Lecture 27: Transition metals and the treatment of lead poisoning 4.4 KB 
292.1 KB 
Lecture 28: Crystal field theory 3.4 KB 
354.1 KB 
Lecture 29: Metals in biology 7.1 KB 
332.9 KB 
Lecture 30: Magnetism and spectrochemical theory 5.1 KB 
331.8 KB 
Lecture 31: Rate laws 3.9 KB 
355.8 KB 
Lecture 32: Nuclear chemistry and elementary reactions 6.5 KB 
372.1 KB 
Lecture 33: Reaction mechanism 5.1 KB 
324.1 KB 
Lecture 34: Temperature and kinetics 3.0 KB 
376.5 KB 
Lecture 35: Enzyme catalysis 3.2 KB 
318.4 KB 
Lecture 36: Biochemistry 5.6 KB 
343.0 KB 
Information FormatSize
MIT5.111F08-2_files.xml Metadata [file] 
MIT5.111F08-2_meta.xml Metadata 2.0 KB 

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